Bioresonance therapy: mechanism of action, technique, indications and contraindications

Bioresonance therapy (BRT) consists in the correction of body functions under the influence of electromagnetic radiations of strictly defined parameters, just as a tuning fork responds to a certain frequency spectrum of a sound wave.

The mechanism of action of bioresonance therapy

The idea of bioresonance therapy with the help of weak electromagnetic oscillations inherent in the patient himself was first expressed and scientifically grounded by F, Morell (1977). In the normal physiological state of the organism, relative synchronization of various vibrational (wave) processes is maintained, while in abnormal conditions disturbances of vibrational harmony are observed. This can be expressed in the disturbed rhythms of the basic physiological processes, for example, due to a sharp predominance of excitation or inhibition mechanisms in the central nervous system and changes in cortical-subcortical interactions.

Bioresonance therapy is therapy with electromagnetic oscillations, with which the structures of the organism enter into resonance. Impact is possible both at the cellular level, and at the level of the organ, organ system and holistic organisms. The main idea of using resonance in medicine is that with the proper selection of the frequency and form of the therapeutic (electromagnetic) effect, one can strengthen the normal (physiological) and weaken the pathological fluctuations in the human body. Thus, the bioresonance effect can be directed both at neutralization of pathological and on restoration of physiological fluctuations disturbed by pathological conditions.

Vital activity of humans, animals, as well as protozoa, bacteria and viruses is accompanied by various types of electrical activity. Electrical signals tracked on the surface of the skin have a huge clinical and physiological significance. Electroencephalograms, electrocardiograms and electromyograms and other signals are used in clinical medicine to measure the activity of the muscular and nervous system. The method by which the information supplied by these systems is interpreted is mainly based on the statistical accumulated over many years. In humans, the main sources of electrical and electromagnetic signals are:

• Muscle activity, for example, rhythmic contractions of the heart muscle;
• neural activity, i.e. Transmission of electrical signals from the sense organs to the brain and from the brain to the executive systems - hands, feet;
• metabolic activity, i.e., metabolism in the body.

All the most important human organs and systems have their own temporary electric and electromagnetic rhythms. At this or that disease rhythmic activity disturbances occur. For example, with bradycardia caused by cardiac conduction disorders, a special device is used - the "rhythm driver" or "pacemaker", which provides the heart with a normal rhythm of work. This approach can be used in the treatment of diseases and other organs, for example, the stomach, liver, kidneys, skin, etc. It is only necessary to know the frequencies of the tissue activity of these organs (call them their own physiological frequencies). In any disease, i.e., in the presence of pathology, these frequencies change and acquire the level of so-called "pathological frequencies". If we, in one way or another, excite in the diseased organ the vibrations of its own physiological rhythms, then we will facilitate its normal functioning. Thus, various diseases can be treated.

From the standpoint of biophysics, metabolism is an association and dissociation, that is, the formation of new compounds and the disintegration of previous compounds. In this process, charged particles-ions, polarized molecules, water dipoles participate. The motion of any charged particle creates around it a magnetic field, the accumulation of charged particles creates the electric potential of a particular sign. These prerequisites allow us to approach the treatment and prevention of diseases, not chemical, that is, medicinal in the traditional sense, but by physical methods.

The basis for conducting an electrical signal is a liquid medium - these are extracellular and intracellular body fluids. The cell (plasma) membrane is a semipermeable barrier that separates the intercellular (interstitial) fluid from the cytoplasm. These two types of liquids have different ionic concentrations, and the membrane has different levels of permeability for various ions dissolved in liquids. The difference in electrical potentials between the inner and outer surfaces of the membrane at rest, that is, in the absence of an electrical or chemical stimulus, constitutes a resting potential. Depolarizing stimuli (electrical, mechanical signals or chemical effects), reaching a threshold value, cause the action potential.

The magnitude of the membrane potential depends significantly on the cell type and size, and the current flowing through the membrane depends on the ion concentration on both sides, the membrane potential and the permeability of the membrane for each ion.

The source of electrical signals in the body tissues is the action potential generated by individual neurons and muscle fibers. The surrounding tissue in which the current has changed is called the "conducting volume".

In many clinical and neurophysiological devices, one can observe the electromagnetic field of the conducting volume, but not the bioelectric sources that produce it (ECG, etc.). Therefore, it is extremely important to establish exactly the origin of the source bioelectric source producing the electromagnetic field of the conducting volume. This operation involves very complex calculations, especially if the characteristics of the biological environment are taken into account. Mathematical models of fluxes of current fields in conductivity volumes have been developed with varying degrees of success.

In the devices "Beautytek" (Germany) a cycle was created, a closed loop with an area of stimulation. When two electrodes are placed in a position that allows the system to read the area to be treated, the apparatus will provide a very fast physico-chemical analysis of the tissues. Using a series of algorithms, the physico-chemical state is read and interpreted several hundred times per second, the readings are taken, the data is interpreted and correction is performed. Since the algorithms of the system are aimed at bringing to equilibrium, the electronic system can not cause any damage.

Once the state of equilibrium is reached in the region under study, the device stops the treatment. Then, the readings of the received tissue modifications, interpretation, etc., begin again.

Each adjustment of the fabric in real time includes thousands of calculations in a split second. The state of polarization of any kind, encompassing a wide range of compensatory physical, biochemical and humoral events.

Indications for bioresonance therapy:

• restoration of the ion lattice;
• improvement of metabolism;
• regulation of water balance;
• dehydration of adipose tissue (lipolysis);
• destruction of fatty capsules;
• lymphatic drainage;
• microstimulation;
• increased perfusion of blood.

[1], [2], [3]